Login

GPC Members Login
If you have any problems or have forgotten your login please contact [email protected]


Amazon deforestation is close to tipping point

Deforestation of the Amazon is about to reach a threshold beyond which the region's tropical rainforest may undergo irreversible changes that transform the landscape into degraded savanna with sparse shrubby plant cover and low biodiversity.

This warning derives from an editorial published in the journal Science Advances. The article was co-authored by Thomas Lovejoy, a professor at George Mason University in the United States, and Carlos Nobre, chair of Brazil's National Institute of Science & Technology (INCT) for Climate Change - one of the INCTs supported by FAPESP (Sao Paulo Research Foundation) in partnership with the National Council for Scientific & Technological Development (CNPq).

"The Amazon system is close to a tipping point," Lovejoy said. According to the authors, since the 1970s, when studies conducted by Professor Eneas Salati demonstrated that the Amazon generates approximately half of its own rainfall, the question has been raised of how much deforestation would be required to degrade the region's hydrological cycle to the point at which it would be unable to support rainforest ecosystems.

The first models developed to answer this question showed that the tipping point would be reached if approximately 40% of the region were deforested. In this case, central, southern and eastern Amazonia would experience diminished rainfall and a lengthier dry season. Moreover, the vegetation in the southern and eastern parts of the region would become similar to savanna.

In recent decades, new factors in addition to deforestation have affected the hydrological cycle. These factors include climate change and indiscriminate use of fire by agriculturists during the dry season to eliminate felled trees and clear areas for crops or pasture.

The combination of these three factors indicates a shift to non-forest ecosystems in the eastern, southern and central portions of the Amazon region at between 20% and 25% deforestation, according to the authors.

The calculation derives from a study published in 2016 in Proceedings of the National Academy of Sciences and conducted by Nobre and other researchers at the INPE, the National Space Research Institute (from which Nobre is a retired researcher), the Natural Disaster Surveillance & Early Warning Center (CEMADEN) and the University of Brasília (UnB).

"Although we don't know the exact tipping point, we estimate that the Amazon is very close to this irreversible limit," Nobre said. "Deforestation of the Amazon has already reached 20%, equivalent to 1 million square kilometers, although 15% [150,000 km²] is recovering."

Safety margin

According to the researchers, the megadroughts of 2005, 2010 and 2015-16 could well represent the first signs that this tipping point is about to be reached.

These events, together with major floods in 2009, 2012 and 2014, suggest the entire Amazon system is oscillating. "Human action intensifies the disturbances to the region's hydrological cycle," Nobre said.

"If there were no human activity in the Amazon, a megadrought would cause the loss of a certain number of trees, but they would grow back in a year with abundant rainfall, restoring the forest to equilibrium. When you have a megadrought combined with widespread use of fire, the forest's capacity for regeneration diminishes."

To keep the Amazon tipping point at bay, the researchers advocate not just strict control to prevent further deforestation but also the construction of a safety margin by reducing the deforested area to less than 20%.

For the coordinator of the FAPESP-funded institute, besides halting deforestation completely in the Amazon, Brazil must fulfill its 2015 Paris Accord undertaking to reforest 12 million hectares nationwide by 2030, with the Amazon accounting for 5 million hectares.

"If deforestation is brought to a full stop in the Amazon and Brazil fulfills its reforestation commitment, totally deforested areas will account for approximately 16%-17% of the Amazon by 2030," Nobre said.

"We'd be very close to the threshold but with a safety margin so that deforestation alone doesn't take the biome beyond the tipping point."

Read the paper: Amazon Tipping Point.

Article source: Fundação de Amparo à Pesquisa do Estado de São Paulo.

News

Using the right plants can reduce indoor pollution and save energy

People in industrialized countries spend more than 80% of their lives indoors, increasingly in air-tight buildings. These structures require less energy for heating, ventilating, and air conditioning, but can be hazardous to human health if particulate matter and potentially toxic gases, including carbon monoxide, ozone, and volatile organic compounds, from sources such as furniture, paints, carpets, and office equipment accumulate. Plants absorb toxins and can improve indoor air quality, but surprisingly little is known about what plants are best for the job and how we can make plants perform better indoor.


Trees are not as 'sound asleep' as you may think

High-precision three-dimensional surveying of 21 different species of trees has revealed a yet unknown cycle of subtle canopy movement during the night. The 'sleep cycles' differed from one species to another. Detection of anomalies in overnight movement could become a future diagnostic tool to reveal stress or disease in crops.


Wood formation model to fuel progress in bioenergy, paper, new applications

A new systems biology model that mimics the process of wood formation allows scientists to predict the effects of switching on and off 21 pathway genes involved in producing lignin, a primary component of wood. The model, built on more than three decades of research led by Vincent Chiang of the Forest Biotechnology Group at North Carolina State University, will speed the process of engineering trees for specific needs in timber, biofuel, pulp, paper and green chemistry applications.